I was also diagnosed in 2012 and has surgery in 2013. I continue on meds and have many health issues still. I haven’t had a full recovery and dramatic weight loss or anything. I’m now starting to regret surgery as it has left me very limited in what I can do. I was far more mobile before. I miss my life. I’ve lost everything since having surgery!

I, too, was diagnosed with a pituitary tumor and subsequently had surgery to remove it. I still struggle day to day with many issues…word finding, comprehension, emotions. I also struggle with finding Cushings disease support groups in our area.

A simple test that measures free cortisol levels in saliva at midnight — called a midnight salivary cortisol test — showed good diagnostic performance for Cushing’s syndrome among a Chinese population, according to a recent study. The test was better than the standard urine free cortisol levels and may be an alternative for people with end-stage kidney disea […]

Your case is every similar to mine. I wasn’t a dancer but I did play multiple sports in high school and played college basketball. I saw doctor Yuen at Swedish as well and many more doctors as well. I have never got my case or my symptoms solved. Over 4 years of doctors and testing. They found I had a pituitary tumor and mildly high cortisol in my 24 hour Ur […]

Thanks for sharing your story. In February it will be 6 years since I’ve had my pituitary surgery. My health is constantly up and down as well. I was just wondering if you’re treated for depression or anxiety at all? Also, have you found any exercises or physical therapy to be helpful?

Jill wrote: 'In December 2004 my dad who had addison's for over 30 years had a triple bypass surgery 6 days before Christmas. The surgery was an amazine success and it was predicted he would be home before Christmas. Day 2 following surgery the hospital neglected to give him his steriods for his Addison's for 22 hours, which they were complete […]

A man with Cushing’s disease — caused by an adrenocorticotrophic hormone (ACTH)-secreting pituitary adenoma — who later developed metastases in the central nervous system without Cushing’s recurrence, was successfully treated over eight years with radiation and chemotherapy, according to a case report.

Meta

Cushing’s disease patients with macroadenomas — pituitary tumors larger than 10 mm — should undergo transsphenoidal pituitary surgery using the endoscopic technique, according to a new systematic review.

Cushing’s disease develops due to an adrenocorticotropic hormone (ACTH)-secreting pituitary adenoma. The first-choice treatment for Cushing’s disease is transsphenoidal pituitary surgery, which is performed through the nose to remove pituitary tumors.

There are two main methods to conduct this kind of surgery: microscopic, which is done using a magnifying tool, and endoscopic surgery, which uses a thin, lighted tube with a tiny camera. The microscopic technique was the established method for transsphenoidal surgery, until physicians started doing endoscopic pituitary surgery in 1992.

Most surgical centers choose to perform either the microscopic or endoscopic technique but do not offer both. As a result, only a few small studies have compared the outcomes of microscopic and endoscopic surgical techniques in Cushing’s disease performed at the same center. These studies showed no clear differences in remission rates or surgical morbidity.

To date, no systematic review comparing the microscopic and the endoscopic surgical techniques in Cushing’s disease has been conducted and, therefore, convincing evidence to support either technique is lacking.

To address this, researchers set out to conduct a systematic review and meta-analysis that compares the endoscopic and microscopic transsphenoidal surgery techniques for Cushing’s disease with regards to surgical outcomes and complication rates.

Researchers searched through nine electronic databases to identify potentially relevant articles. In total, 97 cohort studies with 6,695 patients were included in the study. Among the total patient population, 5,711 received microscopical surgery and 984 were endoscopically operated.

Overall remission was achieved in 80 percent of patients, with no clear differences between the techniques. The recurrence rate was around 10 percent, and short-term mortality was less than 0.5 percent.

Cerebrospinal fluid leak (due to a hole or a tear) occurred more often in patients who underwent endoscopic surgery. On the other hand, transient diabetes insipidus — short-term diabetes — occurred more often in patients who received endoscopic surgery.

When classifying patients by tumor size, however, researchers found that patients with macroadenomas — tumors larger than 10 mm — had higher rates of remission and lower recurrence rates after endoscopic surgery. Patients with microadenomas (tumors smaller than 10 mm) had comparable outcomes with either technique.

Taking these results into account, the researchers suggest that endoscopic surgery may be considered the current standard of care, though microscopic surgery can be used based on the neurosurgeon’s preference.

They also emphasize that centers that solely perform the microscopic technique should consider at least referring Cushing’s disease patients with macroadenomas to a center that performs the endoscopic technique.

A Puerto Rican woman aged 50 years presented to an ophthalmologist with complaints of vision changes, including difficulty seeing images in her peripheral vision in both eyes and difficulty in color perception. Her medical history was significant for menopause at age 43 years, type 2 diabetes and hypertension. She had no prior history of thyroid disease, changes in her weight, dizziness or lightheadedness, headaches, galactorrhea or growth of her hands or feet.

Formal visual fields showed bitemporal superior quadrantopsia, and she was sent to the ED for further evaluation.

Imaging and laboratory tests

A pituitary protocol MRI was performed that showed a large 3 cm x 2 cm x 2.2 cm mass in the pituitary with mild osseous remodeling of the sella turcica and mass effect on the optic chiasm (Figure 1). The mass was isointense with the brain parenchyma on T1-weighted and T2-weighted images and homogeneously enhanced after IV gadolinium contrast administration.

Given the patient’s high nighttime cortisol and adrenocorticotropic hormone (ACTH) levels, she underwent an overnight dexamethasone suppression test with 1 mg dexamethasone. Her morning cortisol was appropriately suppressed to less than 1 µg/dL, excluding Cushing’s disease.

Pituitary adenoma resection

The patient was diagnosed with a nonsecreting pituitary adenoma with suprasellar extension and optic chiasm compression with visual field deficits. The macroadenoma caused an inappropriately normal LH and FSH in a postmenopausal woman consistent with hypogonadotrophic hypogonadism.

She underwent transnasal transsphenoidal resection of the nonsecreting pituitary adenoma. The dural defect caused by the surgery was patched with an abdominal fat graft with a DuraSeal dura patch. A postoperative MRI showed complete resection of the adenoma with no evaluable tumor in the sella (Figure 2). Her postoperative course was complicated by transient diabetes insipidus requiring intermittent desmopressin; however, this resolved before her discharge from the hospital.

Figure 2. T1-weighted MRI images with contrast. Coronal views before (A) and after (B) transphenoidal tumor resection show complete resolution of the enhancing pituitary mass (A; red arrow) that is replaced with a new hypodense mass in the sella (B; yellow arrow). This mass is filled with cerebrospinal fluid with a residual rim of enhancing tissue. This is consistent with the development of a pseudomeningocele in the sella.

Postoperative testing confirmed secondary deficiency of the adrenal, thyroid and ovarian axes requiring hormone therapy. The patient had stable temporal hemianopia in the left eye with improved vision in the right eye.

Recurrent mass detected

One year after surgery, during a routine follow-up appointment, the patient reported no dizziness, lightheadedness, worsening vision changes, rhinorrhea or headache. She had a follow-up MRI of the brain with and without contrast, which showed the interval appearance of a mass in the sella that extended from the sphenoid sinus into the sella and came in contact with the optic nerve (Figure 3).

Figure 3. Axial MRI images of the sella after resection of pituitary adenoma. On T1-weighted images the mass (red arrow) in the sella is hypodense (black) compared with the brain parenchyma. On T2-weighted images, the mass (red arrow) is hyperdense (bright) compared with the brain, consistent with fluid. Cerebrospinal fluid in the sulci on the brain surface and the vitreous fluid within the eye are also hyperintense on T2-weighted images (yellow arrows).

On MRI, the mass was isodense with the cerebral spinal fluid (CSF) with a residual rim of enhancing normal pituitary tissue. This appearance is consistent with the postoperative development of a pseudomeningocele and not a solid mass in the sella (Table).

Pseudomeningoceles are abnormal collections of CSF that communicate with the CSF space around the brain; these occur after brain surgery involving duraplasty (incision and repair of the dura). Unlike meningoceles, pseudomeningoceles are not completely encased by a surrounding membrane, and they communicate with the circulating CSF. Similar to CSF, a pseudomeningocele is hypodense (dark) compared with brain on T1-weighted MRI images and hyperdense (bright) on T2-weight images.

Pseudomeningocele treatment

Treatment may be conservative or may involve neurosurgical repair if symptomatic. Little published data addresses the development of pseudomeningoceles after transsphenoidal pituitary surgery, but this complication occasionally occurs, especially if the dural incision is large. One study noted that pseudomeningoceles are one of the most common complications after suboccipital decompression for Chiari’s malformation, but the effect of this complication is unclear.

Endocrinologists must recognize that recurrent development of pituitary masses after transsphenoidal pituitary adenoma surgery may not represent regrowth of pituitary tissue, but instead development of a meningocele/pseudomeningocele. Pseudomeningocele can be easily confirmed because this fluid collection has very different MRI characteristics than pituitary adenoma (Table). Given that patients may remain asymptomatic after the development of a pseudomeningocele, periodic MRI imaging, hormonal evaluation and ophthalmologic monitoring of visual fields are required after transsphenoidal pituitary surgery.